Laxative Explained

Laxatives, purgatives, or aperients are substances that loosen stools[1] and increase bowel movements. They are used to treat and prevent constipation.

Laxatives vary as to how they work and the side effects they may have. Certain stimulant, lubricant, and saline laxatives are used to evacuate the colon for rectal and bowel examinations, and may be supplemented by enemas under certain circumstances. Sufficiently high doses of laxatives may cause diarrhea. Some laxatives combine more than one active ingredient, and may be administered orally or rectally.

Types

Bulk-forming agents

Bulk-forming laxatives, also known as roughage, are substances, such as fiber in food and hydrophilic agents in over-the-counter drugs, that add bulk and water to stools so they can pass more easily through the intestines (lower part of the digestive tract).[2]

Properties

Bulk-forming agents generally have the gentlest of effects among laxatives,[1] making them ideal for long-term maintenance of regular bowel movements.

Dietary fiber

Foods that help with laxation include fiber-rich foods. Dietary fiber includes insoluble fiber and soluble fiber, such as:[4]

Emollient agents (stool softeners)

Emollient laxatives, also known as stool softeners, are anionic surfactants that enable additional water and fats to be incorporated in the stool, making movement through the bowels easier.

Properties

Emollient agents prevent constipation rather than treating long-term constipation.[3]

Lubricant agents

Lubricant laxatives are substances that coat the stool with slippery lipids and decrease colonic absorption of water so the stool slides through the colon more easily. Lubricant laxatives also increase the weight of stool and decrease intestinal transit time.[9]

Properties

Mineral oils, such as liquid paraffin, are generally the only nonprescription lubricant laxative available, but due to the risk of lipid pneumonia resulting from accidental aspiration, mineral oil is not recommended, especially in children and infants.[10] [11] Mineral oil may decrease the absorption of fat-soluble vitamins and some minerals.

Hyperosmotic agents

Hyperosmotic laxatives cause the intestines to hold more water, creating an osmotic gradient, which adds more pressure and stimulates bowel movement.[12]

Properties

Lactulose works by the osmotic effect, which retains water in the colon; lowering the pH through bacterial fermentation to lactic, formic, and acetic acids; and increasing colonic peristalsis. Lactulose is also indicated in portal-systemic encephalopathy. Glycerin suppositories work mostly by hyperosmotic action, but the sodium stearate in the preparation also causes local irritation to the colon.

Solutions of polyethylene glycol and electrolytes (sodium chloride, sodium bicarbonate, potassium chloride, and sometimes sodium sulfate) are used for whole bowel irrigation, a process designed to prepare the bowel for surgery or colonoscopy and to treat certain types of poisoning. Brand names for these solutions include GoLytely, GlycoLax, Cosmocol, CoLyte, Miralax, Movicol, NuLytely, Suprep, and Fortrans. Solutions of sorbitol (SoftLax) have similar effects.

Saline laxative agents

Saline laxatives are nonabsorbable, osmotically active substances that attract and retain water in the intestinal lumen, increasing intraluminal pressure that mechanically stimulates evacuation of the bowel. Magnesium-containing agents also cause the release of cholecystokinin, which increases intestinal motility and fluid secretion.[3] Saline laxatives may alter a patient's fluid and electrolyte balance.

Properties

Stimulant agents

Stimulant laxatives are substances that act on the intestinal mucosa or nerve plexus, altering water and electrolyte secretion.[13] They also stimulate peristaltic action and can be dangerous under certain circumstances.[14] Properties

Prolonged use of stimulant laxatives can create drug dependence by damaging the colon's haustral folds, making users less able to move feces through their colon on their own. A study of patients with chronic constipation found that 28% of chronic stimulant laxative users lost haustral folds over the course of one year, while none of the control group did.[15]

Miscellaneous

Castor oil is a glyceride that is hydrolyzed by pancreatic lipase to ricinoleic acid, which produces laxative action by an unknown mechanism.

Properties

Long-term use of castor oil may result in loss of fluid, electrolytes, and nutrients.[3]

Serotonin agonist

These are motility stimulants that work through activation of 5-HT4 receptors of the enteric nervous system in the gastrointestinal tract. However, some have been discontinued or restricted due to potentially harmful cardiovascular side effects.

Tegaserod (brand name Zelnorm) was removed from the general U.S. and Canadian markets in 2007, due to reports of increased risks of heart attack or stroke. It is still available to physicians for patients in emergency situations that are life-threatening or require hospitalization.[16]

Prucalopride (brand name Resolor) is a current drug approved for use in the EU since October 15, 2009,[17] in Canada (brand name Resotran) since December 7, 2011,[18] and in the United States since December 2018.

Chloride channel activators

Lubiprostone is used in the management of chronic idiopathic constipation and irritable bowel syndrome. It causes the intestines to produce a chloride-rich fluid secretion that softens the stool, increases motility, and promotes spontaneous bowel movements.

Comparison of available agents

Common stimulant laxatives[19] [20]
Preparation(s) Type Site of action Onset of action
Cascara (casanthranol)36–8 hours
Anthraquinone colon 36–8 hours
Senna extract (senna glycoside) Anthraquinone colon 36–8 hours
Aloe vera (aloin) Anthraquinone colon 58–10 hours
colon 48 hours
Bisacodyl (oral) Triphenylmethane colon 66–12 hours
Bisacodyl (suppository) Triphenylmethane colon 160 minutes
Castor oil small intestine 22–6 hours

Effectiveness

For adults, a randomized controlled trial found PEG (MiraLax or GlycoLax) 17 grams once per day to be superior to tegaserod at 6 mg twice per day.[21] A randomized controlled trial found greater improvement from two sachets (26 g) of PEG versus two sachets (20 g) of lactulose.[22] 17 g per day of PEG has been effective and safe in a randomized, controlled trial for six months.[23] Another randomized, controlled trial found no difference between sorbitol and lactulose.[24]

For children, PEG was found to be more effective than lactulose.[25]

Problems with use

Laxative abuse

Some of the less significant adverse effects of laxative abuse include dehydration (which causes tremors, weakness, fainting, blurred vision, kidney damage), low blood pressure, fast heart rate, postural dizziness and fainting; however, laxative abuse can lead to potentially fatal acid-base, and electrolyte imbalances. For example, severe hypokalaemia has been associated with distal renal tubular acidosis from laxative abuse. Metabolic alkalosis is the most common acid-base imbalance observed. Other significant adverse effects include rhabdomyolysis, steatorrhoea, inflammation and ulceration of colonic mucosa, pancreatitis,[26] kidney failure,[27] [28] factitious diarrhea[29] and other problems.[30] The colon will need more quantities of laxatives to keep functioning, this will result in a lazy colon, infections, irritable bowel syndrome, and potential liver damage.

Although some patients with eating disorders such as anorexia nervosa and bulimia nervosa abuse laxatives in an attempt to lose weight, laxatives act to speed up the transit of feces through the large intestine, which occurs after the absorption of nutrients in the small intestine is already complete. Thus, studies of laxative abuse have found that effects on body weight reflect primarily temporary losses of body water rather than energy (calorie) loss.[31] [32]

Laxative gut

Physicians warn against the chronic use of stimulant laxatives due to concern that chronic use could cause the colonic tissues to get worn out over time and not be able to expel feces due to long-term overstimulation.[33] A common finding in patients having used stimulant laxatives is a brown pigment deposited in the intestinal tissue, known as melanosis coli.

Historical and health fraud uses

Laxatives, once called "physicks" or "purgatives", were used extensively in historic medicine to treat many conditions for which they are now generally regarded as ineffective in evidence-based medicine.[34] Likewise, laxatives (often termed colon cleanses) may be promoted in alternative medicine for various conditions of quackery, such as "mucoid plaque".[35]

See also

Notes and References

  1. Web site: Constipation. www.digestive.niddk.nih.gov. National Digestive Diseases Information Clearinghouse. 3 November 2014.
  2. http://www.cancer.gov/dictionary?CdrID=489403 Bulk-forming agent
  3. Book: Berardi M, Tietze KJ, Shimp LA, Rollins CJ, Popovich NG . Handbook of Nonprescription Drugs. 2006. American Pharmaceutical Association. Washington, D.C.. 978-1582120744. 15th.
  4. Web site: The Facts About Fiber. www.aicr.org. American Institute for Cancer Research. 3 November 2014. 3 November 2014. https://web.archive.org/web/20141103115438/http://www.aicr.org/assets/docs/pdf/brochures/facts-about-fiber.pdf. dead.
  5. Das. JL. Medicinal and nutritional values of banana cv. NENDRAN. Asian Journal of Horticulture. 2010. 8. 11–14. 2012-11-29. 2014-11-03. https://web.archive.org/web/20141103120544/http://www.cabdirect.org/abstracts/20103272020.html;jsessionid=2B9A2FDF37186F0DA0A347FF227D606D. dead.
  6. News: 15 Foods That Cause Constipation (Caffeine, Chocolate, Alcohol). MedicineNet. 2017-12-12. en.
  7. Rush EC, Patel M, Plank LD, Ferguson LR . Kiwifruit promotes laxation in the elderly. . Asia Pac J Clin Nutr . 11 . 2 . 164–8 . 2002 . 12074185 . 10.1046/j.1440-6047.2002.00287.x . 15280086 .
  8. Stacewicz-Sapuntzakis M, Bowen PE, Hussain EA, Damayanti-Wood BI, Farnsworth NR . Chemical composition and potential health effects of prunes: a functional food? . Critical Reviews in Food Science and Nutrition . 41 . 4 . 251–86 . 2001 . 11401245 . 10.1080/20014091091814 . 31159565 .
  9. Book: Handbook of Nonprescription Drugs . Berardi M, Tietze KJ, Shimp LA, Rollins CJ, Popovich NG . 2006 . American Pharmaceutical Association . 978-1582120744 . 15th . Washington, D.C..
  10. Book: Krinsky, Daniel L. . Handbook of Nonprescription Drugs: An Interactive Approach to Self-Care, 20th Edition . November 30, 2020 . The American Pharmacists Association . 978-1-58212-317-2 . 2215 Constitution Avenue, N.W. Washington, DC 20037-2985 . en . 10.21019/9781582123172.ch15.
  11. Web site: Bowles-Jordan . Jane . Constipation . March 20, 2020 . CPS.
  12. Book: Handbook of Nonprescription Drugs . Berardi M, Tietze KJ, Shimp LA, Rollins CJ, Popovich NG . 2006 . American Pharmaceutical Association . 978-1582120744 . 15th . Washington, D.C..
  13. http://www.mayoclinic.com/health/drug-information/DR602359 Laxative (Oral Route)
  14. Joo JS, Ehrenpreis ED, Gonzalez L, Kaye M, Breno S, Wexner SD, Zaitman D, Secrest K . Alterations in colonic anatomy induced by chronic stimulant laxatives: the cathartic colon revisited . J Clin Gastroenterol . 26 . 4 . 283–6 . 1998 . 9649012 . 10.1097/00004836-199806000-00014 .
  15. Joo . Jae Sik . Ehrenpreis . Eli D. . Gonzalez . Leopoldo . Kaye . Mark . Breno . Susan . Wexner . Steven D. . Zaitman . Daniel . Secrest . K. . Alterations in Colonic Anatomy Induced by Chronic Stimulant Laxatives: The Cathartic Colon Revisited . Journal of Clinical Gastroenterology . June 1998 . 26 . 4 . 283–286 . 10.1097/00004836-199806000-00014 . 9649012 .
  16. Web site: Postmarket Drug Safety Information for Patients and Providers - Zelnorm (tegaserod maleate) Information. Center for Drug Evaluation and. Research. www.fda.gov. 14 April 2018.
  17. Web site: European Medicines Agency EPAR summary for the public. europa.eu. 14 April 2018. 14 April 2018. https://web.archive.org/web/20180414233759/http://www.ema.europa.eu/docs/en_GB/document_library/EPAR_-_Summary_for_the_public/human/001012/WC500053995.pdf. dead.
  18. Web site: Health Canada, Notice of Decision for Resotran. hc-sc.gc.ca. 14 April 2018. https://web.archive.org/web/20170318120956/http://www.hc-sc.gc.ca/dhp-mps/prodpharma/sbd-smd/drug-med/sbd_smd_2012_resotran_141157-eng.php#a2. 18 March 2017. dead.
  19. Web site: SAFETY ISSUES AFFECTING HERBS: How Long can Stimulant Laxatives be Used?. Subhuti. Dharmananda. Institute for Traditional Medicine. 2010-03-19.
  20. Web site: Stimulant Laxatives. 2010-02-26. Family Practice Notebook, LLC. 2010-03-19.
  21. Di Palma JA, Cleveland MV, McGowan J, Herrera JL . A randomized, multicenter comparison of polyethylene glycol laxative and tegaserod in treatment of patients with chronic constipation . Am. J. Gastroenterol. . 102 . 9 . 1964–71 . 2007 . 10.1111/j.1572-0241.2007.01365.x . 17573794 . 32055676 .
  22. Attar A, Lémann M, Ferguson A, Halphen M, Boutron MC, Flourié B, Alix E, Salmeron M, Guillemot F, Chaussade S, Ménard AM, Moreau J, Naudin G, Barthet M . Comparison of a low dose polyethylene glycol electrolyte solution with lactulose for treatment of chronic constipation . Gut . 44 . 2 . 226–30 . 1999 . 9895382 . 1727381 . 10.1136/gut.44.2.226 .
  23. Dipalma JA, Cleveland MV, McGowan J, Herrera JL . A randomized, multicenter, placebo-controlled trial of polyethylene glycol laxative for chronic treatment of chronic constipation . Am. J. Gastroenterol. . 102 . 7 . 1436–41 . 2007 . 10.1111/j.1572-0241.2007.01199.x . 17403074 . 10946562 .
  24. Lederle FA, Busch DL, Mattox KM, West MJ, Aske DM . Cost-effective treatment of constipation in the elderly: a randomized double-blind comparison of sorbitol and lactulose . Am J Med . 89 . 5 . 597–601 . 1990 . 2122724 . 10.1016/0002-9343(90)90177-F .
  25. Web site: BestBETs: Is polyethylene glycol safe and effective for chro... . 2007-09-06 .
  26. Brown NW, Treasure JL, Campbell IC . Evidence for long-term pancreatic damage caused by laxative abuse in subjects recovered from anorexia nervosa . International Journal of Eating Disorders . 29 . 2 . 236–238 . 2001 . 11429987 . 10.1002/1098-108X(200103)29:2<236::AID-EAT1014>3.0.CO;2-G .
  27. Copeland PM . Renal failure associated with laxative abuse . Psychother Psychosom . 62 . 3–4 . 200–2 . 1994 . 7531354 . 10.1159/000098619 . Alaminos . MacIas . Teijeiro . Alvarez . Ohye . Molina . Ortega . Muñoz . J. . I. . H. . Ch. . R. . A. . L. . J. .
  28. Wright LF, DuVal JW . Renal injury associated with laxative abuse . South Med J . 80 . 10 . 1304–6 . 1987 . 3660046 . 10.1097/00007611-198710000-00024 .
  29. Oster JR, Materson BJ, Rogers AI . Laxative abuse syndrome . Am. J. Gastroenterol. . 74 . 5 . 451–8 . November 1980 . 7234824 .
  30. Roerig JL, Steffen KJ, Mitchell JE, Zunker C . Laxative abuse: epidemiology, diagnosis and management . Drugs . 70 . 12 . 1487–1503 . 2010 . 20687617 . 10.2165/11898640-000000000-00000 . 29007249 .
  31. Lacey JH, Gibson E . Controlling weight by purgation and vomiting: A comparative study of bulimics . Journal of Psychiatric Research . 19 . 2–3 . 337–341 . 1985 . 3862833 . 10.1016/0022-3956(85)90037-8 .
  32. Web site: Acid-base and electrolyte abnormalities with diarrhea. www.uptodate.com. 2017-12-12.
  33. Joo JS, Ehrenpreis ED, Gonzalez L, Kaye M, Breno S, Wexner SD, Zaitman D, Secrest K . Alterations in colonic anatomy induced by chronic stimulant laxatives: the cathartic colon revisited . Journal of Clinical Gastroenterology . 26 . 4 . 283–6 . June 1998 . 9649012 . 10.1097/00004836-199806000-00014 .
  34. Stolberg. Michael. 2003. [The miraculous effects of taking laxatives. Success and failure of pre-modern medical treatment from the patients' perspective]. Wurzburger Medizinhistorische Mitteilungen. 22. 167–177. 0177-5227. 15641192.
  35. Book: M., Raju, S.. Illustrated medical pharmacology. 9789350906552. 870530462. 2013-09-30. JP Medical .